+ // Like INPUT_AND_OUTPUT_PREMULTIPLIED_ALPHA, but also guarantees
+ // that if you get blank alpha in, you also keep blank alpha out.
+ // This is a somewhat weaker guarantee than DONT_CARE_ALPHA_TYPE,
+ // but is still useful in many situations, and appropriate when
+ // e.g. you don't touch alpha at all.
+ //
+ // Does not make sense for inputs.
+ INPUT_PREMULTIPLIED_ALPHA_KEEP_BLANK,
+
+ // Keeps the type of alpha (premultiplied, postmultiplied, blank)
+ // unchanged from input to output. Usually appropriate if you
+ // process all color channels in a linear fashion, do not change
+ // alpha, and do not produce any new pixels thare have alpha != 1.0.
+ //
+ // Does not make sense for inputs.
+ DONT_CARE_ALPHA_TYPE,
+ };
+ virtual AlphaHandling alpha_handling() const { return INPUT_AND_OUTPUT_PREMULTIPLIED_ALPHA; }
+
+ // Whether this effect expects its input to come directly from
+ // a texture. If this is true, the framework will not chain the
+ // input from other effects, but will store the results of the
+ // chain to a temporary (RGBA fp16) texture and let this effect
+ // sample directly from that.
+ //
+ // There are two good reasons why you might want to set this:
+ //
+ // 1. You are sampling more than once from the input,
+ // in which case computing all the previous steps might
+ // be more expensive than going to a memory intermediate.
+ // 2. You rely on previous effects, possibly including gamma
+ // expansion, to happen pre-filtering instead of post-filtering.
+ // (This is only relevant if you actually need the filtering; if
+ // you sample 1:1 between pixels and texels, it makes no difference.)
+ //
+ // Note that in some cases, you might get post-filtered gamma expansion
+ // even when setting this option. More specifically, if you are the
+ // first effect in the chain, and the GPU is doing sRGB gamma
+ // expansion, it is undefined (from OpenGL's side) whether expansion
+ // happens pre- or post-filtering. For most uses, however,
+ // either will be fine.
+ virtual bool needs_texture_bounce() const { return false; }
+
+ // Whether this effect expects mipmaps or not. If you set this to
+ // true, you will be sampling with bilinear filtering; if not,
+ // you could be sampling with simple linear filtering and no mipmaps
+ // (although there is no guarantee; if a different effect in the chain
+ // needs mipmaps, you will also get them).
+ virtual bool needs_mipmaps() const { return false; }
+
+ // Whether this effect wants to output to a different size than
+ // its input(s) (see inform_input_size(), below). If you set this to
+ // true, the output will be bounced to a texture (similarly to if the
+ // next effect set needs_texture_bounce()).
+ virtual bool changes_output_size() const { return false; }
+
+ // If changes_output_size() is true, you must implement this to tell
+ // the framework what output size you want. Also, you can set a
+ // virtual width/height, which is the size the next effect (if any)
+ // will _think_ your data is in. This is primarily useful if you are
+ // relying on getting OpenGL's bilinear resizing for free; otherwise,
+ // your virtual_width/virtual_height should be the same as width/height.
+ //
+ // Note that it is explicitly allowed to change width and height
+ // from frame to frame; EffectChain will reallocate textures as needed.
+ virtual void get_output_size(unsigned *width, unsigned *height,
+ unsigned *virtual_width, unsigned *virtual_height) const {
+ assert(false);
+ }
+
+ // Tells the effect the resolution of each of its input.
+ // This will be called every frame, and always before get_output_size(),
+ // so you can change your output size based on the input if so desired.
+ //
+ // Note that in some cases, an input might not have a single well-defined
+ // resolution (for instance if you fade between two inputs with
+ // different resolutions). In this case, you will get width=0 and height=0
+ // for that input. If you cannot handle that, you will need to set
+ // needs_texture_bounce() to true, which will force a render to a single
+ // given resolution before you get the input.
+ virtual void inform_input_size(unsigned input_num, unsigned width, unsigned height) {}
+
+ // How many inputs this effect will take (a fixed number).
+ // If you have only one input, it will be called INPUT() in GLSL;
+ // if you have several, they will be INPUT1(), INPUT2(), and so on.
+ virtual unsigned num_inputs() const { return 1; }
+
+ // Inform the effect that it has been just added to the EffectChain.
+ // The primary use for this is to store the ResourcePool uesd by
+ // the chain; for modifications to it, rewrite_graph() below
+ // is probably a better fit.
+ virtual void inform_added(EffectChain *chain) {}
+
+ // Let the effect rewrite the effect chain as it sees fit.
+ // Most effects won't need to do this, but this is very useful
+ // if you have an effect that consists of multiple sub-effects
+ // (for instance, two passes). The effect is given to its own
+ // pointer, and it can add new ones (by using add_node()
+ // and connect_node()) as it sees fit. This is called at
+ // EffectChain::finalize() time, when the entire graph is known,
+ // in the order that the effects were originally added.
+ //
+ // Note that if the effect wants to take itself entirely out
+ // of the chain, it must set “disabled” to true and then disconnect
+ // itself from all other effects.
+ virtual void rewrite_graph(EffectChain *graph, Node *self) {}
+
+ // Outputs one GLSL uniform declaration for each registered parameter
+ // (see below), with the right prefix prepended to each uniform name.
+ // If you do not want this behavior, you can override this function.
+ virtual std::string output_convenience_uniforms() const;
+
+ // Returns the GLSL fragment shader string for this effect.
+ virtual std::string output_fragment_shader() = 0;
+
+ // Set all OpenGL state that this effect needs before rendering.
+ // The default implementation sets one uniform per registered parameter,
+ // but no other state.
+ //
+ // <sampler_num> is the first free texture sampler. If you want to use
+ // textures, you can bind a texture to GL_TEXTURE0 + <sampler_num>,
+ // and then increment the number (so that the next effect in the chain
+ // will use a different sampler).
+ virtual void set_gl_state(GLuint glsl_program_num, const std::string& prefix, unsigned *sampler_num);
+
+ // If you set any special OpenGL state in set_gl_state(), you can clear it
+ // after rendering here. The default implementation does nothing.
+ virtual void clear_gl_state();
+
+ // Set a parameter; intended to be called from user code.
+ // Neither of these take ownership of the pointer.
+ virtual bool set_int(const std::string&, int value) MUST_CHECK_RESULT;
+ virtual bool set_float(const std::string &key, float value) MUST_CHECK_RESULT;
+ virtual bool set_vec2(const std::string &key, const float *values) MUST_CHECK_RESULT;
+ virtual bool set_vec3(const std::string &key, const float *values) MUST_CHECK_RESULT;
+ virtual bool set_vec4(const std::string &key, const float *values) MUST_CHECK_RESULT;